Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of the Evi-1 zinc finger gene is a common event associated with transformation of murine myeloid leukemias. To characterize the gene product, we developed antisera against various protein domains. These antisera primarily detected a 145-kilodalton nuclear protein that bound double-stranded DNA. Binding was inhibited by chelating agents and partially restored by zinc ions.
Mol Cell Biol 1990 Mar
PMID:Identification, nuclear localization, and DNA-binding activity of the zinc finger protein encoded by the Evi-1 myeloid transforming gene. 210 70

The UGA3 gene of Saccharomyces cerevisiae is required for 4-aminobutyric acid (GABA)-dependent induction of the UGA1, UGA2 and UGA4 genes which encode the two GABA catabolic enzymes and a GABA-specific permease, respectively. Measurements of UGA1-specific transcripts show that induction of UGA1 correlates with accumulation of its RNA and requires a functional UGA3 gene. A 2 kb DNA fragment complementing the uga3 mutation was isolated and shown to contain the UGA3 gene. The primary structure of the UGA3 encoded protein was deduced from the DNA sequence, and contains an N-terminal, cysteine-rich motif similar in sequence to regions found in other fungal regulatory proteins and which are supposed to form zinc finger structures involved in DNA binding. Mutations were identified in the UGA3 genes isolated from uninducible and constitutive uga3 alleles. One case of intragenic complementation between two uninducible uga3 mutants is reported, indicating a possible oligomeric structure for UGAe. The role of UGA3 is discussed in relation to its genetic properties and its predicted structure.
Mol Gen Genet 1990 Jan
PMID:The UGA3 gene regulating the GABA catabolic pathway in Saccharomyces cerevisiae codes for a putative zinc-finger protein acting on RNA amount. 210 79

LAC9 is a DNA-binding protein that regulates transcription of the lactose-galactose regulon in Kluyveromyces lactis. The DNA-binding domain is composed of a zinc finger and nearby amino acids (M. M. Witte and R. C. Dickson, Mol. Cell. Biol. 8:3726-3733, 1988). The single zinc finger appears to be structurally related to the zinc finger of many other fungal transcription activator proteins that contain positively charged residues and six conserved cysteines with the general form Cys-Xaa2-Cys-Xaa6-Cys-Xaa6-9-Cys-Xaa2-Cys-Xaa 6-Cys, where Xaan indicates a stretch of the indicated number of any amino acids (R. M. Evans and S. M. Hollenberg, Cell 52:1-3, 1988). The function(s) of the zinc finger and other amino acids in DNA-binding remains unclear. To determine which portion of the LAC9 DNA-binding domain mediates sequence recognition, we replaced the C6 zinc finger, amino acids adjacent to the carboxyl side of the zinc finger, or both with the analogous region from the Saccharomyces cerevisiae PPR1 or LEU3 protein. A chimeric LAC9 protein, LAC9(PPR1 34-61), carrying only the PPR1 zinc finger, retained the DNA-binding specificity of LAC9. However, LAC9(PPR1 34-75), carrying the PPR1 zinc finger and 14 amino acids on the carboxyl side of the zinc finger, gained the DNA-binding specificity of PPR1, indicating that these 14 amino acids are necessary for specific DNA binding. Our data show that C6 fingers can substitute for each other and allow DNA binding, but binding affinity is reduced. Thus, in a qualitative sense C6 fingers perform a similar function(s). However, the high-affinity binding required by natural C6 finger proteins demands a unique C6 finger with a specific amino acid sequence. This requirement may reflect conformational constraints, including interactions between the C6 finger and the carboxyl-adjacent amino acids; alternatively or in addition, it may indicate that unique, nonconserved amino acid residues in zinc fingers make sequence-specifying or stabilizing contacts with DNA.
Mol Cell Biol 1990 Oct
PMID:The C6 zinc finger and adjacent amino acids determine DNA-binding specificity and affinity in the yeast activator proteins LAC9 and PPR1. 211 90

The GLI oncogene, discovered by virtue of its amplification in human tumors, encodes a sequence-specific DNA-binding protein containing five zinc fingers. We have now characterized one member of a family of GLI-related zinc finger genes. A previously identified fragment of GLI3 genomic DNA was used to localize GLI3 to chromosome 7p13 and to isolate cDNA clones. Sequence analysis of these clones and identification of the GLI3 protein by using polyclonal antisera demonstrated that GLI3 encodes a protein of 1,596 amino acids and an apparent molecular mass of 190 kilodaltons. Amino acid sequence comparison with GLI demonstrated seven regions of similarity (53 to 88% identity), with the zinc fingers representing the most similar region. Furthermore, when produced in vitro, the GLI3 protein bound specifically to genomic DNA fragments containing GLI-binding sites. Amino acid sequence comparison with the product of another member of the GLI family, the Drosophila segment polarity gene cubitus interruptus Dominant, revealed additional similarity that was not shared with GLI. These studies suggest that the GLI-related genes encode a family of DNA-binding proteins with related target sequence specificities. In addition, sequence similarity aside from the zinc finger region suggests that other aspects of function are shared among the members of this gene family.
Mol Cell Biol 1990 Oct
PMID:GLI3 encodes a 190-kilodalton protein with multiple regions of GLI similarity. 211 97

The mechanisms which transduce intracellular signals for the accumulation of myofibrillar protein during the onset of myocardial cell hypertrophy are unknown. Although previous studies in skeletal muscle cells have suggested that the activation of protein kinase C induces de-differentiation, including the selective disassembly of myofibrils and inhibition of myofibrillar protein synthesis, the present study demonstrates that phorbol esters which activate protein kinase C lead to the accumulation of an individual contractile protein, myosin light chain-2 (MLC-2) and produce several features of myocardial cell hypertrophy. Utilizing immunoblotting and indirect immunocytofluorescence with MLC antisera, the present study demonstrates a several-fold increase in the content of MLC-2, and a marked increase in the assembly of MLC into organized contractile units in individual neonatal rat myocardial cells following treatment with phorbol 12-myristate 13-acetate (PMA). The concentration of PMA required to elicit this response and the lack of a response with an inactive phorbol ester is consistent with the activation of a protein kinase C dependent pathway. Furthermore, PMA treatment results in the rapid induction of a program of immediate-early gene expression (including the c-fos and c-jun proto-oncogenes, and an inducible zinc finger containing gene, egr-l), and activates cardiac gene transcription as assessed by nuclear run-on analyses. The results of the present study suggest the possibility that a protein kinase C dependent pathway may be involved in the up-regulation of myofibrillar protein content and the activation of cardiac gene transcription during growth and hypertrophy of neonatal rat myocardium, and that the induction of a program of immediate-early gene expression may be linked to this response.
J Mol Cell Cardiol 1990 Aug
PMID:Phorbol esters induce immediate-early genes and activate cardiac gene transcription in neonatal rat myocardial cells. 212 1

The nitrogen regulatory circuit of Neurospora crassa consists of a set of unlinked structural genes which specify various nitrogen catabolic enzymes plus control genes and metabolic effectors which regulate their expression. The positive-acting nit-2 regulatory gene is required to turn on the expression of the nitrogen catabolic enzymes during conditions of nitrogen limitation. The complete nucleotide sequence of the nit-2 gene was determined. The nit-2 mRNA is 4.3 kilobases long and has a long nontranslated sequence at both its 5' and 3' ends. The nit-2 gene nucleotide sequence can be translated to yield a protein containing 1,036 amino acid residues with a molecular weight of approximately 110,000. Deletion analyses demonstrated that approximately 21% of the NIT2 protein at its carboxy terminus can be removed without loss of function. The nit-2 protein contains a single putative Cys2/Cys2 zinc finger domain which appears to function in DNA binding and which has striking homology to a mammalian trans-acting factor, GF-1.
Mol Cell Biol 1990 Mar
PMID:nit-2, the major nitrogen regulatory gene of Neurospora crassa, encodes a protein with a putative zinc finger DNA-binding domain. 213 52

The major nitrogen-regulatory gene nit-2 of Neurospora crassa activates the expression of numerous unlinked structural genes which specify nitrogen-catabolic enzymes during conditions of nitrogen limitation. The nit-2 gene encodes a regulatory protein of 1036 amino acid residues with a single 'zinc finger' and a downstream basic region, which together may constitute a DNA-binding domain. The zinc finger domain of the NIT2 protein was synthesized in vitro and also expressed as a fusion protein in Escherichia coli to examine its DNA-binding activity. The wild-type NIT2 finger domain protein binds to the promoter region of nit-3, the nitrate reductase structural gene. A series of NIT2 mutant proteins obtained by site-directed mutagenesis was expressed and tested for functional activity. The results demonstrate that both the single zinc-finger motif and the downstream basic region of NIT2 are critical for its trans-activating function in vivo and specific DNA-binding in vitro.
Mol Microbiol 1990 Nov
PMID:Site-directed mutagenesis of the 'zinc finger' DNA-binding domain of the nitrogen-regulatory protein NIT2 of Neurospora. 215 May 39

The nuclear hormone receptors comprise a superfamily of ligand-modulated transcription factors that regulate homeostasis, reproduction, development, and differentiation. Three amino acids within the zinc finger DNA binding motif determine target gene specificity. Groups of receptors exist with similar DNA binding specificity. A complex carboxy terminal region mediates ligand binding, dimerization, and hormone-relieved transcriptional inactivation. We summarize the current understanding of these phenomena and suggest a novel model that structurally and functionally links these events. This "regulatory zipper model" may explain the mechanism by which ligand activates nuclear hormone receptors.
Mol Endocrinol 1990 Sep
PMID:Interactions among a subfamily of nuclear hormone receptors: the regulatory zipper model. 217 97

The three-dimensional structure of a 30-residue synthetic peptide containing the carboxy-terminal "zinc finger" motif of a human enhancer binding protein has been determined by two-dimensional nuclear magnetic resonance (2D NMR) spectroscopy and hybrid distance geometry-dynamical simulated annealing calculations. The structure determination is based on 487 approximate interproton distance and 63 torsion angle (phi, psi, and chi 1) restraints. A total of 40 simulated annealing structures were calculated, and the atomic rms distribution about the mean coordinate positions (excluding residues 29 and 30 which are ill-defined) is 0.4 A for the backbone atoms, 0.8 A for all atoms, and 0.41 A for all atoms excluding the lysine and arginine side chains, which are disordered. The solution structure of the zinc finger consists of two irregular antiparallel beta-strands connected by an atypical turn (residues 3-12) and a classical alpha-helix (residues 14-24). The zinc is tetrahedrally coordinated to the sulfur atoms of two cysteines (Cys-5 and Cys-8) and to the N epsilon 2 atoms of two histidines (His-21 and His-27). The two cysteine residues are located in the turn connecting the two beta-strands (residues 5-8); one of the histidine ligands (His-21) is in the alpha-helix, while the second histidine (His-27) is at the end of a looplike structure (formed by the end of the alpha-helix and a turn). The general architecture is qualitatively similar to two previously determined low-resolution Cys2-His2 zinc finger structures, although distinct differences can be observed in the beta-strands and turn and in the region around the two histidines coordinated to zinc. Comparison of the overall polypeptide fold of the enhancer binding protein zinc finger with known structures in the crystallographic data base reveals a striking similarity to one region (residues 23-44) of the X-ray structure of proteinase inhibitor domain III of Japanese quail ovomucoid [Papamokos, E., Weber, E., Bode, W., Huber, R., Empie, M. W., Kato, I., & Laskowski, M. (1982) J. Mol. Biol. 158, 515-537], which could be superimposed with a backbone atomic rms difference of 0.95 A on residues 3-25 (excluding residue 6) of the zinc finger from the enhancer binding protein. The presence of structural homology between two proteins of very different function may indicate that the so-called zinc finger motif is not unique for a class of DNA binding proteins but may represent a general folding motif found in a variety of proteins irrespective of their function.
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PMID:High-resolution three-dimensional structure of a single zinc finger from a human enhancer binding protein in solution. 224 49

The genes (rpo B/C1/C2) coding for the beta, beta', beta" subunits of maize (Zea mays) chloroplast RNA polymerase have been located on the plastome and their nucleotide sequences established. The operon is part of a large inversion with respect to the tobacco and spinach chloroplast genomes and is flanked by the genes trnC and rps2. Notable features of the nucleotide sequence are the loss of an intron in rpoC1 and an insertion of approximately 450 bp in rpoC2 compared to the dicotyledons tobacco, spinach and liverwort. The derived amino acid sequence of this additional monocotyledon specific sequence is characterized by acidic heptameric repeat units containing stretches of glutamic acid, tyrosines and leucines with regular spacing. Other structural motifs, such as a nucleotide binding domain in the beta subunit and a zinc finger in the beta' subunit, are compared at the amino acid level throughout the RNA polymerase subunits with the enzymes from other organisms in order to identify functionally important conserved regions.
Mol Gen Genet 1990 May
PMID:Nucleotide sequence of the maize chloroplast rpo B/C1/C2 operon: comparison between the derived protein primary structures from various organisms with respect to functional domains. 238 19


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